Scott Hoffmann scite author profile

The copper-catalyzed azide-alkyne cycloaddition (CuAAC) reaction has proven to be a pivotal advance in chemical ligation strategies with applications ranging from polymer fabrication to bioconjugation. However, application in vivo has been limited by the inherent toxicity of the copper catalyst. Herein, we report the application of heterogeneous copper catalysts in azide-alkyne cycloaddition processes in biological systems ranging from cells to zebrafish, with reactions spanning from fluorophore activation to the first reported in situ generation of a triazole-containing anticancer agent from two benign components, opening up many new avenues of exploration for CuAAC chemistry.

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Copper Catalysis in Living Systems and In Situ Drug Synthesis

Clavadetscher

Hoffmann

Lilienkampf

et al. 2016

Angewandte Chemie

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The copper-catalyzed azide-alkyne cycloaddition (CuAAC) reaction has proven to be ap ivotal advance in chemical ligation strategies with applications ranging from polymer fabrication to bioconjugation. However,a pplication in vivo has been limited by the inherent toxicity of the copper catalyst. Herein, we report the application of heterogeneous copper catalysts in azide-alkyne cycloaddition processes in biological systems ranging from cells to zebrafish, with reactions spanning from fluorophore activation to the first reported in situ generation of at riazole-containing anticancer agent from two benign components,o pening up many new avenues of exploration for CuAACc hemistry.

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Laser-Based Microscopic Approaches: Application to Cell Signaling in Environmental Lung Disease

et al. 2001

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Cell-imaging approaches using new laser-based technologies have a wide applicability to thefields of pathology and cell biology. Here, we present the application of several of these techniques, including confocal scanning laser microscopy (CSLM), laser scanning cytometry (LSC), and laser capture microdissection (LCM), to studies of cell signaling by environmental agents in lung disease. Using both cells in culture and lung tissue, we show that these technologies are powerful tools for understanding signal transduction cascades elicited by toxic agents, such as oxidants and asbestosfibers, and their relationship to the development of cell injury and proliferation, responses leading to lung disease and/or repair.

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Scott Hoffmann

Copper Catalysis in Living Systems and In Situ Drug Synthesis

Copper Catalysis in Living Systems and In Situ Drug Synthesis

Laser-Based Microscopic Approaches: Application to Cell Signaling in Environmental Lung Disease

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